SCS Tech India

Category: Internet

  • An introduction to Blockchain Technology and its potential uses

    An introduction to Blockchain Technology and its potential uses

    Even while blockchain technology is still in its nascent stages today, it is finding increasing use in important industries outside of the realm of digital currencies. Through the upkeep of immutable distributed ledgers in thousands of nodes, blockchain is the primary technology utilised to produce the digital currency, Bitcoin. The 21st century will see a huge impact from this disruptive technology on institutional operations, company operations, education, and our daily lives.  It has the power to alter the current Internet from “The Internet of Information Sharing” to “The Internet of Value Exchange.”

    Blockchain technology is anticipated to fundamentally alter how business, industry, and education operate while also accelerating the worldwide transition to a knowledge-based economy. This ground-breaking technology has numerous potential uses because of its immutability, transparency, and integrity for all transactions carried out in a blockchain network.

    The following structure illustrates a sample blockchain transaction flow. A peer-to-peer blockchain network is used by User A to start a transaction with User B. The network uses a cryptographic proof of identification (a set of public and private keys) to specifically identify users A and B. The transaction will then be published to the blockchain network’s memory pool while awaiting transaction validation and verification. Reaching consensus is the process of getting a predetermined number of approved nodes to create a new block. Following a consensus, a brand-new “block” is created across the entire blockchain network, and each node updates its individual copy of the blockchain ledger. All of the transactions that took place during this time are contained in this block.

    Advantages of blockchain technology

    Reliability: because blockchain networks are decentralised, the databases of all transaction records have changed from being closed, centralised ledgers maintained by a small number of recognised institutions to being open, distributed ledgers maintained by tens of thousands of nodes.

    Trust: blockchain network also decentralises trust. With organised ledgers, blockchain networks serve as new trust bearers. A group of tamper-proof nodes form a network that shares these ledgers.

    Security: the one-way hash function, a mathematical operation that transforms a variable-length input text into a fixed-length binary sequence, is used by the blockchain network. There is no obvious connection between the input and the output.

    Efficiency: every piece of data is automatically put through pre-defined processes. Blockchain technology can therefore both dramatically lower labour costs and increase productivity. Blockchain technology may hasten the clearing and settlement of some financial transactions, resulting in a quicker and more effective reconciliation procedure.

    Applications using blockchain technology

    • Blockchain offers a number of advantages in the financial and banking sectors in terms of improved record-keeping, security, and transparency. It makes it the ideal option for banking needs like fraud protection, client onboarding, and anti-money laundering.
    • By 2025, the worldwide blockchain market for healthcare is expected to reach $5.61 billion. Using blockchain technology could help resolve expensive and urgent issues in the healthcare sector. Such as inconsistent records, patient data loss or theft, banking information, and test results.
    • Blockchain can be a great solution for the insurance industry and aid in the reduction of underwriting, the identification of fraud, and the enhancement of cyber insurance plans. By 2023, the global insurance blockchain industry might reach $1.39 billion.
    • Businesses that spend a lot of money protecting themselves against breaches are also concerned about cyber security, not only SMEs. Blockchain system nodes automatically compare the data and warn any information that is falsified.
    • Blockchain technology is being used in education by some colleges and institutions, and the majority of them do so to support academic degree management and assumptive evaluation for learning outcomes.
    • Supply chain management can be challenging and involves a lot of data. Data storage using blockchain-based systems would guarantee quick access and strong security because altering the data would be impossible without reporting it as a result.
  • IoT the next big thing or already is? In perspective of Industry 4.O

    IoT the next big thing or already is? In perspective of Industry 4.O

    One of the key technology foundations of Industry 4.0 is the Internet of Things. The ability of machines to independently communicate with one another allows them to solve issues that would previously require human intervention.

    It is anticipated that the use of industrial IoT for predictive maintenance and a rise in the number of data centres would present sizable market expansion prospects. Additionally, the government’s promotion of industrial automation and the demand for high productivity & efficiency are the main factors propelling the growth of this market.

    The majority of firms have acquired a high degree of IoT maturity, and through 2024, enterprises from all industry sectors intend to invest an average of $2.8 million in IoT. Businesses anticipate spending 10% of their IT budgets on IoT initiatives during the next three years, up from the average 7% of an organization’s IT expenditure between 2017 and 2020.

    However, there are observable differences in the expected IoT investment levels across various business sectors. Over the next three years, oil and gas companies plan to invest the most in IoT ($3.2 million on average), followed by electrical utilities ($3.1 million), transportation and logistics ($3 million), mining operators ($2.7 million), and finally, agricultural industries ($2 million).

    Latest research conducted by Inmarsat Enterprise reveals IoT is now the primary Industry 4.0 technology in which companies are investing over the next three years. IoT is becoming a company investment priority, and businesses expect it to save them an increasing amount of money in the next years. This shows how well-established an industry IoT has become globally. Despite the fact that IoT adoption is already accelerating quickly, Covid-19 has stressed the value of Industry 4.0 technologies like IoT for maintaining business continuity. Companies who create digital twins of their supply chains and share data are reaping the rewards as the world’s manufacturing and supply chains become more integrated and digitalized.

    In the Indian Landscape –

    India is a hive of IoT provider potential, and the nation’s IoT ecosystem is anticipated to keep expanding to generate entirely new sources of income. To stay ahead of the curve and meet the growing demand for IoT solutions, vendors should collaborate with other members of the value ecosystem to take advantage of cutting-edge technologies like Big Data analytics, AI and machine learning, new connectivity protocols, and blockchain.

    Private long-term evolution for improved security: Indian tech organizations should concentrate on promoting the advantages of P-LTE to raise awareness and approach businesses with solutions tailored to specific verticals.

    Real-time operational intelligence for improved risk and compliance management: To deliver brand-neutral IoT solutions, suppliers must create hardware and software that is interoperable and pre-integrated.

    Visual matrix solutions for better CX: IoT providers should collaborate with OEMs of visual surveillance systems to offer in-store, real-time consumer analytics in addition to core security solutions.

    IoT as a Service for Smart Diagnostic Laboratories: By starting with open source IoT solutions, expenses can be significantly cut, which will promote the use of smart laboratories as a service.

    By using our global knowledge and top-class IoT solutions, we can assist your business with our digital transformation and automation services. If you’re looking for understanding partners which can deliver results, contact us now.

  • How technology is making our everyday better

    How technology is making our everyday better

    All technologies that have emerged and thrived thus far have been invented to meet the needs of society, as it is rightly said that necessity is the mother of invention. Without a doubt, technology has made our lives easier over the last two decades. Technology has made our lives better in a number of ways, from communicating with people around the world from the convenience of your home to operating a full-fledged business without a physical site.

    We live in a capitalist society, which means that many technological advances are made by businesses looking to improve their products/services or their ability to market their offerings. Over the years, new technology has emerged with the goal of making business operations more beneficial and effective.

    Business Efficiency

    The business world is being swept away by a tidal wave of exponential technological progress. Today’s marketplace provides numerous opportunities to improve, adapt, and advance using available technology. The use of business analytics has proven to be beneficial in improving the customer experience. Such technology-powered business tools have propelled various aspects of business to new heights. Personalized messaging and user behavior analysis have also assisted businesses in establishing a fruitful presence in the market.

    Fast track Communication

    The only certain answer to how technology has improved our lives is that it has changed the way we communicate with one another dramatically. It has resulted in the development of several modes of electronic communication, including smartphone communication and social media. Now that civilization has advanced, instantaneous, error-free communication is widely accessible. Speed is undeniably the most significant advancement that technology has made in communication. We can now converse quickly and effortlessly from the convenience of our homes.

    Advanced Lifestyle

    Throughout history, societies have been reshaped by technology. Technology has had a significant impact on how humans behave and operate in the world. Technological advancements all around us are ongoing. New innovations are appearing, and they are undoubtedly influencing our way of life. Because of technological advancements, our lives are now vastly different from those of previous generations Transportation, agriculture, and education are just a few areas where technology is present and having an impact. On the other hand, the Internet of Things (IoT) has greatly simplified our lives. Through the medium of IoT, smart homes and advanced electronic gadgets have significantly improved our daily routines. It has simplified many aspects of life.

    Superior Trade

    Transactions are much simpler and more efficient than they were previously. On the consumer side, innovations such as the credit card and the rise of e-commerce have made it easier than ever for businesses to sell goods and services to customers at their leisure. However, transactions on a large scale are much easier on a B2B level. Foreign transactions like these are now much easier – and they may become even easier as blockchain, an emerging technology, gains traction.

    Information Accessibility

    Technology has had a significant impact on how we transfer and access information. Nowadays, we can get any information we want at the touch of a button. We are constantly searching the internet for answers and gathering information. If one learns how to surf more skillfully, technology is readily available to us, both in terms of authenticity and relevancy.

    We’ve gotten to the point where it’s difficult to imagine life without technology. The quality of life for people has considerably increased. Technology has altered our behavior and operations by infiltrating every aspect of our lives. Technology has made our lives better in a number of areas, including networking, healthcare, and communication.

  • All you should know about Smart Spaces and its future impact

    All you should know about Smart Spaces and its future impact

    What are Smart Spaces?   

    Smart spaces are facilities or public areas outfitted with sensors to collect data that can be used to generate insights about its environmental conditions, the services it provides, and how occupants interact with their environment. These smart spaces insights can be captured in real-time and from historical data, and then used in improving safety, operations, and the experiences of the people using the space.

    When enabled by technologies like IoT and 5G wireless, which are now capable of monitoring municipal operations using real-time data to bring a level of service to citizens with uncharacteristic efficiency, smart space paradigms are also shared across regions, extending over cities.

    Use of Technology in creating smart spaces

    We can classify smart enabling technologies according to their purpose using this multi-layered approach to smart space environments (virtual, physical, and human levels).

    Virtual Computing Environment — This layer gives smart devices access to private network services or the internet, which enables them to connect to other components of the distributed systems that run the smart space environment.

    Physical Environment – The most diverse layer of smart spaces is the physical environment layer, which contains the embedded sensors, microprocessors, tracking tags, and other tangible components of the smart space.

    Human Environment — This layer is made up of gadgets that people use in conjunction with their environment, such as pacemakers, wearable smart devices, and smartphones. This means that humans can develop smart space environments using cell towers, cell networks, and smartphones to create a virtual, physical, and human environment that can be thought of as a large area smart space, similar to how route-planning apps can be used to create smart spaces.

    Benefits of Smart Spaces

    The deep integration of these technologies into our daily lives demonstrates how successfully they have achieved their general goals of enhancing efficiency, security, and safety.

    Any measurable aspect of efficiency is improved by smart space technology. Smart technology often focuses on lowering overall operational expenses of buildings by avoiding resource and utility waste. Meters for electricity or water may readily be equipped with sensors, making them prime candidates for smart monitoring.

    In places where there are risks of danger or accidents, smart spaces promote safety and risk mitigation. Smart technology, such as the use of intelligent robots in industrial applications, can replace human workers performing dangerous activities. By replacing humans with these robots in numerous tedious and repetitive jobs like moving inventory palettes, productivity has grown.

    Smart environments improve user experience by automating many of our daily “clerical” duties, including checking the lighting, that were previously performed by humans. Using smart space technology is now driven by the desire to enhance the experience of occupants within a space for business purposes. These buildings are becoming more collaborative, informative, and effective thanks to smart office technologies that can connect remote workers, smart conference rooms, scheduling systems, and sensors covering every component of the facility. Several manufacturers advertise a sizable central wall display that serves as a focal point for business activities and shows real-time information. For example, a hospital could use this display to show which doctors are present, which operations are planned, or which rooms are filled.

    Common technologies used in these are:

    • Artificial Intelligence and Machine Learning
    • Computer Vision
    • Speech Recognition
    • Blockchain
    • Cloud computing / Distributed systems
    • Wireless Connectivity
    • Motion and proximity sensors
    • Climate sensors (temperature, humidity, pressure)
    • Accelerometers and gyroscopic sensors
    • Optical and thermal sensors
    • Gas and level sensors
    • RFID tagging
    • Microprocessors
    • Smartphones, tablets, watches
    • Closed-loop insulin delivery systems
    • Ingestible sensors
    • Smart inhalers
    • Smart pacemakers

     

  • Facts about Artificial Intelligence you should know

    Facts about Artificial Intelligence you should know

    The adoption of intelligent, data-driven technology in enterprise applications is accelerating at an unprecedented rate in the digital age, challenging established workplace practices and fundamentally altering the business landscape.

    Artificial Intelligence (AI) and its subset, Machine Learning, are at the forefront of all disruptive technologies (ML). Business experts concur that artificial intelligence and machine learning are the two main forces behind the ‘Industry 4.0’ transformation.

    AI-enabled devices are everywhere. Nearly 77% of devices today use AI technology in one form or another. Virtual assistants, chat-bots, face recognition technology, voice search, and self-driving cars are just a few examples of services and solutions that use AI. These technologies are no longer the stuff of science fiction. They presently exist and have an impact on all facets of contemporary life.

    Things which will matter this year and onward

    1. Big Companies Will Most Likely Implement an AI Strategy

    Stats show that 75% of top CEOs think that AI will help their company expand and gain a competitive edge.

    1. The majority of consumers believe AI will enhance their lives

    In a poll conducted by Strategy Analytics, respondents from India, China, Western Europe, and the United States made up 41% of those who believed that new AI technology would improve their lives.

    1. Most people do not realize that they use AI platforms

    According to a survey, only 34% of consumers are aware that they are directly interacting with AI, which is one of the odd truths about artificial intelligence. But when asked about the technology they use, 84% admitted to using at least one AI-powered product or service.

    1. The voice-search function is becoming popular

    The AI-powered voice-search functionality on smartphones, smart speakers, and other voice-enabled devices is becoming more and more commonplace as a result of breakthroughs in speech recognition technology. According to recent statistics, 41% of smart device users use the voice-search function at least once every day.

    1. The future of AI automation is asset maintenance

    The most common AI use cases in the manufacturing industry, include predicting when machines are likely to break down and suggesting the optimum time to undertake maintenance. According to the survey, roughly 29% of AI applications in the manufacturing sector are used to maintain operational production assets.

    1. AI adoption helps businesses increase earnings

    AI continues the trend of technology generating returns. In a latest finding there has been a nearly 25% year-over-year growth in the use of AI in routine company operations, with a significant increase from the previous year in the number of businesses employing AI in numerous functional areas.

    1. Chat-bot use is growing already

    In a poll conducted of consumers around the world, 38% of respondents indicated that they had a favorable opinion of chat-bots. Only 11 percent of end customers had negative opinions, leaving 51 percent of them neutral.

    Research demonstrates that businesses now employ AI more frequently than not, suggesting that the technology has advanced to another level in the commercial world. Along with it, the need to expand AI among those just beginning their adoption journeys has increased. However, it also points to a way for lagging organizations to catch up, even while they show that other companies are further forward in comprehending the impact of AI.

  • A complete guide on Cloud Computing

    A complete guide on Cloud Computing

    One of the technologies influencing how we work and play is cloud computing. The cloud helps businesses eliminate IT problems and promotes security, productivity, and efficiency. It also enables small enterprises to utilize cutting-edge computing technologies at a significantly lesser cost. Here is what you need to know about the cloud and how it can benefit your company.

    On-Demand Computing

    The term “cloud” describes online-accessible servers and software that anyone can use. You are spared from hosting and managing your hardware and software as a result. Additionally, it implies that you can use these systems from any location where you have internet access.

    Every day, you encounter cloud computing. You are accessing data that is kept on a server somewhere in the world whenever you check your Gmail inbox, look at a photo on your Dropbox account, or watch your favorite shows on Netflix. Even though the emails, videos, or other files you require are not physically present on your computer, you may quickly, simply, and affordably access them owing to contemporary cloud computing technology.

    Public, Private, and Hybrid Cloud

    Private, public, and hybrid deployment strategies are the three main types of cloud computing. In the end, all three models will give customers access to their business-critical documents and software from any location, at any time. It all depends on how they approach the task. The kind of cloud you should use for your company depends on several variables, including the purposes for which you intend to use it, applicable laws on data storage and transmission, and other aspects.

    Private Cloud

    A single entity is served via private clouds. While some companies construct and manage their ecosystems, others rely on service providers to do so. In either case, private clouds are expensive and hostile to the cloud’s advantages for the economy and IT labor productivity. Private clouds, however, are their sole choice because certain organizations are subject to greater data privacy and regulatory constraints than others.

    Public Cloud

    Distributed across the open internet, public clouds are hosted by cloud service providers. Customers can avoid having to buy, operate, and maintain their own IT infrastructure by using the most widely used and least-priced public clouds.

    Hybrid Cloud

    A hybrid cloud combines one or more public clouds with private clouds. Imagine you operate in a sector where data privacy laws are extremely rigorous. While you don’t want to host legally required data in the cloud, you do want to be able to access it there. To access data saved in your private cloud, you also want to deploy your CRM in the cloud. Using a hybrid cloud is the most sensible choice under these circumstances.

    Everything as a Service

    The cloud “stack” is made up of numerous levels. The collection of frameworks, tools and other elements that make up the infrastructure supporting cloud computing is referred to as a stack. Software as a Service (SaaS), Platform as a Service (PaaS), and Infrastructure as a Service (IaaS) components are included in this. Customers that use these services have varied degrees of control and accountability over their cloud environment.

     

     

    Infrastructure as a Service

    The customer oversees managing everything with IaaS, including the OS, middle-ware, data, and applications. Other duties, including virtualization, servers, storage, and networking obligations, are handled by the service provider. Customers are charged by how many resources, including CPU cycles, memory, bandwidth, and others, they consume. Microsoft Azure and Amazon Web Services are two examples of IaaS products.

    Platform as a Service

    Customers can create, test, and host their applications using PaaS solutions. The consumer oversees managing their software and data; otherwise, the service provider takes care of everything. You don’t have to be concerned about operating systems, software upgrades, or storage requirements if you use PaaS solutions. Customers of PaaS pay for any computing resources they use. Google App Engine and SAP Cloud are a couple of examples of PaaS technologies.

    Software as a Service

    Customers acquire licenses to utilize an application hosted by the provider under the SaaS model. Customers often buy annual or monthly subscriptions per user instead of how much of a certain computer resource they consumed, unlike IaaS and PaaS models. Microsoft 365, Dropbox, and DocuSign are a few popular SaaS products. Small firms that lack the capital or IT resources to implement the most cutting-edge technologies would benefit greatly from SaaS solutions.

    Benefits of the Cloud

    Reduced IT costs: By using cloud computing services, recurrent costs for monitoring and maintaining an IT infrastructure can be greatly decreased.

    Scalability: When necessary, developers can increase storage and processing capability by using cloud services. Additionally, development teams do not have to spend time or money upgrading cloud computing services.

    Collaboration efficiency: For the agile technology sector, cooperation has always been a need. Professionals from all around the world may work and collaborate using current cloud services. With these functionalities, teams may communicate with clients or other teams online while collaborating in real-time and sharing resources.

    Flexibility: Cloud computing can provide a great deal of flexibility in addition to helping to lower operational costs. Developers and other key stakeholders now have easier access to crucial data metrics at any time and from any location.

    Automatic updates: Teams may use the most recent resources available while managing and meeting IT standards thanks to automatic updates. Cloud computing is a popular technology because it allows users to access the newest tools and resources without having to spend a fortune.

     

  • Connectivity in 2023 – 5G and beyond

    Connectivity in 2023 – 5G and beyond

    What is the future of connectivity? There’s a dramatic acceleration currently underway. Network-connected device types are multiplying, bringing important implications for the ecosystem of wired and wireless technologies, products, and services—all providing a foundation for tomorrow’s digital economy.

    5G is transforming connectivity. It can potentially change India’s socioeconomic fabric and transform society at large. Providing pan-India connectivity through Fixed Wireless Access (FWA) services could be a game changer, especially in rural areas. 5G is expected to spawn new avenues of economic growth through high-speed internet connectivity in households, improving fixed broadband penetration significantly. 5G has the potential to address some of the basic challenges owing to the lack of optimum infrastructure in sectors such as healthcare and education. 5G is likely to improve access to education and the quality of virtual learning.

    There is no doubt that commercial deployment of 5G will necessitate major ecosystem changes in terms of spectrum usage, network infrastructure, and devices. It is therefore imperative for the government to price spectrum reasonably and rationalize taxes so that 5G services can be implemented seamlessly. It will not only have use cases unique to the country, such as driver-less vehicles, smart healthcare, smart agriculture, smart transportation, etc, but it would also revolutionize business landscapes and networks.

    The transition to 5G will unlock new opportunities and revenue streams through innovative business models. It will bolster the start-up ecosystem and enable India to be an R&D hub for 5G technology and use cases. Developing 5G applications is likely to have a huge impact across industries.

     

    New customers, increased revenue

    Fundamentally, the main draw of 5G from an operator’s perspective is the potential to add a significant number of new subscribers, and as a result, greatly increase revenues. As interest grows amongst prospective customers and they begin to reach out and explore their options, customer care agents will need to be able to answer questions about coverage and serviceability which will require them to have access to accurate, real-time information.

    The arrival of 5G brings numerous advantages, but it will also place mobile operators in the unknown territory from a planning perspective. To help them navigate this environment they need the right support. The right tools are also helpful for addressing the technology hurdles commonly associated with FWA planning processes, including 5G outdoor and indoor fixed terminal placement. Simultaneously, such tools are also key to unlocking advanced coverage and traffic analysis, combined multi-technology planning, site selection, and ‘what-if’ scenarios.

    5G is undoubtedly a disruptive technology that will drive revenues and business growth in the years to come – to guarantee its success, operators will have to pay close attention to planning and optimization.

    India is on track of becoming a trillion-dollar digital economy and the evolving digital metrics are creating inroads for newer technologies and solutions. As digital adoption continues to grow phenomenally, India is all set to experience 5G and mobile-led technologies in a big way by being one of the few countries in the world that are ready to commercially adopt and deploy the 5G ecosystem.

     

    The future of connectivity

    Human augmentation is about highly immersive experiences and enhanced human-computer interfaces allowing humans to become a part of the internet, not just users of it. We’re increasingly moving away from the two-dimensional screen to devices driven by augmented reality, virtual reality and many other innovations.

    This technology will greatly impact how we perceive the world around us. We will be able to sense nearby pollution levels and know about safety risks in the workplace. Furthermore, it will allow people with the most serious mobility issues to walk unassisted.

    Digital-physical fusion is a separate but related idea that means connecting physical assets with digital versions of themselves, a technology already beginning to emerge. Advanced factories and logistics sites currently run digital twins of their production lines, warehouses and vehicles to increase productivity and lower operating costs. By 2030, the technology will spread, not only to other sectors – making dangerous environments, such as mines, much safer – but across society. You or I could have a digital twin of ourselves; the recent discussion around the “metaverse” gives a pretty good indication of where we may end up.

    Despite being more flexible, reliable and high-capacity than ever, today’s networks cannot provide the required level of service for these emerging technologies. As a result, the way networks are built and consumed will need to change significantly in the coming decade. Some requirements will be met naturally, as the technology cycle of telecom continues to turn and existing products and services are refined. Some needs will call for networks to adapt in three new and specific ways in the coming years.

  • Uprising of the Indian IT sector and it’s future

    Uprising of the Indian IT sector and it’s future

    The 21st century is commonly recognized as the era of technology. This Information Age is marked by newer technologies which are in regard toward problem-solving and critical thinking. As far as our country is concerned, the future of the IT industry in India is quite bright, given the tremendous rate of globalization and industrialization.

    The IT & BPM sector has become one of the most significant growth catalysts for the Indian economy, contributing significantly to the country’s GDP and public welfare. The IT industry accounted for 7.4% of India’s GDP in FY22, and it is expected to contribute 10% to India’s GDP by 2025.

    According to the National Association of Software and Service Companies (Nasscom), the Indian IT industry’s revenue touched US$ 227 billion in FY22, a 15.5% YoY growth. And according to Gartner estimates, IT spending in India is expected to increase to US$ 101.8 billion in 2022 from an estimated US$ 81.89 billion in 2021.

    The Indian software program product industry is predicted to attain US$ 100 billion by 2025. Indian organizations are focused on investing across the world to expand their global footprint and enhance their international delivery centers. The IT enterprise introduced 4.45 lac new employees in FY22, bringing the overall employment in the region to 50 lac personnel.

    Artificial intelligence and machine learning are set to determine the destiny of IT corporations in India. More and more corporations in India are opting for newer technologies to facilitate better functionality.

    Governance around IT

    Some of the major initiatives taken by the government to promote the IT and ITeS sector in India are as follows:

    • In August 2022, the Indian Computer Emergency Response Team (CERT-In), in collaboration with the Cyber Security Agency of Singapore (CSA), successfully planned and carried out the “Synergy” Cyber Security Exercise for 13 countries to build network resilience against ransomware attacks.
    • In June 2022, STPI Director General Mr. Arvind Kumar stated that exports through STPI units have increased from Rs. 17 crores (US$ 2.14 million) in FY92 to Rs. 5.69 lac crore (US$ 71.65 billion) in FY22.
    • In May 2022, it was announced that Indians can now avail of their Digi-locker services through WhatsApp to get easy access to their official documents.
    • In April 2022, the Indian Computer Emergency Response Team (CERT-In) issued Directions to strengthen cybersecurity in the country.
    • In the Union Budget 2022-23, the allocation for the IT and telecom sector stood at Rs. 88,567.57 crores (US$ 11.58 billion).
    • The government introduced the STP Scheme, which is a 100% export-oriented scheme for the development and export of computer software, including the export of professional services using communication links or physical media.

    The Road Forward

    India is the topmost offshoring destination for IT companies across the world. Having proven its capabilities in delivering both on-shore and off-shore services to global clients, emerging technologies now offer an entire new gamut of opportunities for top IT firms in India.

    The Indian IT & business services industry is expected to grow to around INR 1700 crores (US$ 19.93 billion) by 2025. Spending on information technology in India is expected to reach over INR 1200 crores (US$ 144 billion) in 2023. The cloud market in India is expected to grow threefold to over INR 580 crores (US$ 7.1 billion) by 2022 with the help of the growing adoption of big data, analytics, artificial intelligence, and the Internet of Things (IoT).

    As per a survey by Amazon Web Services (2021), India is expected to have nine times more digitally skilled workers by 2025.

    In November 2021, Mr. Piyush Goyal, Minister of Commerce and Industry, Consumer Affairs, Food, and Public Distribution and Textiles, lauded the Indian IT sector for excelling in its competitive strength with zero government interference. He further added that service exports from India have the potential to reach INR 83000 crores (US$ 1 trillion) by 2030.

    All in all, the future of the IT industry in India looks promising. While data security might be a big challenge, it will be exciting to witness the turn of events. Apart from the nation’s perspective, one can make the best of the changing IT industry by upskilling themselves.

  • Understanding The 7 Layers of Metaverse

    Understanding The 7 Layers of Metaverse

    When it comes to describing the metaverse, definitions and opinions abound. And while it’s difficult to put something as vast, conceptual, and, frankly, still emerging as the metaverse into quantifiable terms, Jon Radoff, entrepreneur, author and game designer, breaks it down logically and thoroughly in Measuring the Metaverse. He moves up the value chain from infrastructure at the bottom to experience at the top, stopping at human interface, decentralization, spatial computing, creator economy, and discovery along the way.

    A common framework is necessary in Radoff’s view of the metaverse. He writes, “And while there will be many proprietary (and very fun) theme parks in the metaverse, I’m even more excited by the opportunity in the Switzerlands: a metaverse powered by a robust creator-economy enabled through decentralization.”

    This, of course, isn’t the first seven-layer model to lay out a critical framework. The IT world has long adhered to the seven layers of the OSI Model to organize networking functions into a universal set of rules and requirements to support interoperability among different products and software. Perhaps Radoff’s seven-layer model will become a similar conceptual framework for the metaverse.

     

    Layer 1: Experience

    Many people think of the metaverse as 3D space that will surround us. But the metaverse is not 3D or 2D, or even necessarily graphical; it is about the inexorable dematerialization of physical space, distance, and objects. It includes 3D games like Fortnite on our game consoles, Beat Saber in our virtual reality headsets, and Roblox on our computers. It also includes Alexa in our kitchen, Zoom in our virtual offices, Clubhouse on our phones, and Peloton in our home gyms.

    What happens when physical space is dematerialized? Formerly scarce experiences may become abundant. Games show us the path forward: in a game, you can dream of being a rock star, a Jedi, a race car driver, or anything else you might imagine. Imagine what happens when you apply this to more familiar experiences. For example, a concert in physical space can sell only a few seats in the front row — but a virtual concert can generate a personalized plane of existence around each individual in which you always enjoy the best seat in the house.

    Games will evolve to incorporate more events that are informed by live entertainment, such as the music concerts and immersive theater that have already emerged in Fortnite, Roblox, and Rec Room. Esports and online communities will be augmented by social entertainment. Meanwhile, traditional industries such as travel, education, and live performance will be reshaped around game-thinking and the virtual economy of abundance.

    The live events I’ve touched upon here lead to another facet of metaverse experiences: the content-community complex. Whereas once customers were only consumers of content, they are now content-creators and content-amplifiers as well. In the past, there was the notion of “user-generated content” when referring to mundane features like blog comments or uploading a video. Now, content isn’t simply generated by people: it emerges from their interactions and feeds into the substance of the conversations within their communities. Content begets content: a virtual flywheel of content, events, and social interaction. When we talk about “immersion” in the future, we’ll be referring not only to immersion within a graphical space or a story-world, but also to the social immersion and how it sparks interaction and propels content.

    Layer 2: Discovery

    The discovery layer is about the push and pull that introduces people to new experiences. This is a vast ecosystem, and one of the most lucrative for many businesses — including some of the largest in the world. Broadly speaking, most discovery systems can be classified as either inbound (the person is actively seeking information about an experience) or outbound (marketing that was not specifically requested by the person, even if they opted in).

    Inbound:

    • Real-time presence
    • Community-driven content
    • N of your friends like App
    • App stores (along with reviews, ratings systems, and categorization/tagging)
    • Curation — via featured application listings in stores, taste-makers, and “influencers”
    • Search engines
    • Earned media

    Outbound:

    • Display advertising
    • Spam (email, LinkedIn, Discord)
    • Notifications

    Most of the above are familiar to internet users at this point, so I’ll focus here on the aspects of discovery that will elevate in importance in the metaverse.

    First, community-driven content is a far more cost-effective means of discovery than most forms of marketing. When people really care about the content or the events they are participating in, they’ll spread the word. As content itself gets easier to exchange, trade, and share within more metaverse contexts, the content itself will also become a marketing asset. An example that’s already emerged is NFTs: love them or hate them, two of their key advantages are the relative ease with which they can be supplied to decentralized exchanges and the economics that favor more direct creator-community engagement. Content marketplaces will become an alternative to application marketplaces as a means of discovery.

    A specific form of community surfacing is real-time presence features. Instead of focusing on what people like, this is about what people are actually doing right now. This is highly relevant in a metaverse where so much of the value will come from interacting with friends through shared experiences.

    The various walled gardens for certain games make good use of real-time presence: if you login to Steam, Battle.net, Xbox or PlayStation, you’ll see what games your friends are playing right now. Outside of games, Clubhouse shows the power of this structure: deciding which room to join is largely oriented toward your curated list of people you follow.

    Just as we are dematerializing physical reality, the metaverse is also digitizing social structures. Whereas earlier stages of the Internet were defined by social media “stickiness” around a few monolithic providers, a decentralized identity ecosystem may shift the power toward the social groups themselves, allowing them to move frictionlessly across collective experiences. Clubs emerge on Clubhouse and plan a party in Rec Room; guilds move between games; a circle of friends jumps between experiences on Roblox. This is the marketing implication of the content-community complex.

    Real-time presence detection that spans the multitude of activities in the metaverse is one of the greatest discovery opportunities for creators. Discord has a presence-detection SDK that works across different game environments; once that (or something like it) is adopted more pervasively and surfaced more apparently, we’ll increasingly transition from asynchronous “social networking” to real-time “social activity.” Experiences that give community leaders the tools to launch activities that people actually want to join into will lead the way.

    Layer 3: Creator Economy

    Not only are the experiences of the metaverse becoming increasingly immersive, social, and real-time, but the number of creators who craft them is increasing exponentially. This layer contains all of the technology that creators use on a daily basis to craft the experiences that people enjoy.

    Previous creator economies developed in consistent patterns, whether in the metaverse, games, web development, or e-commerce:

    Pioneer Era: The first people to create experiences for a given technology have no tools available, so they build everything from scratch. The first websites were coded directly in HTML; people implemented their own shopping carts for e-commerce sites; programmers wrote directly to the graphics hardware for games.

    Engineering Era: After the early successes in a creative market, there’s an explosion of the number of people on teams. Build-from-scratch is usually too slow and expensive to support needs, and workflow grows more complex. The earliest tooling in a market tends to relieve overloaded engineers by supplying them with SDKs and middleware to save them time. For example, Ruby on Rails (along with a huge number of other application server stacks) made it easier for developers to create data-driven websites. In games, graphics libraries such as OpenGL and DirectX arrived to provide programmers with the ability to render 3D graphics without knowing much low-level coding.

    Creator Era: Ultimately, designers and creators don’t want coding bottlenecks to slow them down — and coders would rather add their abilities to the unique aspects of a project. This era is defined by a dramatic and exponential rise in the number of creators. Creators gain tools, templates, and marketplaces of content that reorient development from a bottoms-up, code-centered process to a top-down, creatively centered process.

    Today, you can launch an e-commerce website in Shopify in minutes without knowing a single line of code. Websites can be created and maintained in Wix or Squarespace. 3D graphics experiences can be crafted within game engines such as Unity and Unreal without ever touching the lower-level rendering APIs — using visual interfaces within their studio environments.

    Experiences in the metaverse will be increasingly live, social, and continuously updated. Thus far, creator-driven experiences in the metaverse are oriented around centrally managed platforms such as Roblox, Rec Room, and Manticore — where a full suite of integrated tooling, discovery, social networking, and monetization functions has empowered an unprecedented number of people to craft experiences for others. Our vision at Beamable is to equip independent creators with the same capabilities, but in a decentralized and open manner.

    Layer 4: Spatial Computing

    Spatial computing proposes hybrid real/virtual computation that erodes the barriers between the physical and the ideal worlds. … Wherever possible the machine in space and space in the machine should be allowed to bleed into each other. Sometimes this means bringing space into the computer, sometime[s] this means injecting computation into objects. Mostly it means designing systems that push through the traditional boundaries of screen and keyboard without getting hung up there and melting into interface or meek simulation.

    Spatial computing has exploded into a large category of technology that enables us to enter into and manipulate 3D spaces, and to augment the real world with more information and experience. I divide the software of spatial computing from the enabling hardware layer, which I detail under the Human Interface section below. For the key aspects of software, this includes:

    • 3D engines to display geometry and animation (Unity and Unreal)
    • Mapping and interpreting the inside and outside world — geospatial mapping (Niantic Planet-Scale AR and Cesium) and object recognition
    • Voice and gesture recognition
    • Data integration from devices (Internet of Things) and biometrics from people (for identification purposes as well as quantified self applications in health/fitness)
    • Next-generation user interfaces to support concurrent information streams and analysis

    Layer 5: Decentralization

    The ideal structure of the metaverse is the opposite of the OASIS of Ready Player One, where it was controlled by a single entity. Experimentation and growth increase dramatically when options are maximized and systems are interoperable and built within competitive markets where creators are sovereign over their own data and creations.

    The simplest example of decentralization is the Domain Name System (DNS), which maps individual IP addresses to names, saving you from having to enter a number each time you want to go somewhere online.

    Distributed computing and microservices provide a scalable ecosystem for developers to tap into online capabilities — everything from commerce systems to specialized AI to various game systems — without needing to focus on building or integrating back-end capabilities.

    Blockchain technology, which enables value-exchange between software, self-sovereign identity and new ways of unbundling and bundling content and currencies — is a large part of decentralization. This area of innovation is called Web3, which frees financial assets from centralized control and custody — and within decentralized finance (DeFi), we already see examples of connecting financial legos to form novel applications. With the advent of NFTs and blockchains optimized for the sort of microtransactions required by games and metaverse experiences, we’ll see a wave of innovation around decentralized markets and applications for game assets as well.

    “Far edge” computing will push the cloud closer to our homes — even into our vehicles — to enable powerful applications at low latency, without burdening our devices with all of the work. Computing power will become more like a utility on a grid (not unlike electricity) and less like a datacenter.

    Layer 6: Human Interface

    Computer devices are getting closer to our bodies, transforming us into cyborgs.

    Smartphones are no longer phones. They are highly portable, always-connected, and powerful computers that happen to have a phone application preinstalled. They’re only getting more powerful; and with further miniaturization, the right sensors, embedded AI technology, and low-latency access to powerful edge computing systems, they’ll absorb more and more applications and experiences from the metaverse.

    The Oculus Quest is essentially a smartphone that’s been refactored into a VR device; this untethering gives us a sense of where the future is heading.

    In a few years the Quest 2 ought to be reminiscent of the mobile brick-phone from decades past; soon we’ll have smartglasses that can perform all the functions of a smartphone along with AR and VR applications.

    Beyond smartglasses, there is a growing industry experimenting with new ways to bring us closer to our machines:

    • 3D-printed wearables integrated into fashion and clothing
    • Miniaturized biosensors, some even printed on the skin
    • Maybe even consumer neural interfaces?

    Layer 7: Infrastructure

    The infrastructure layer includes the technology that enables our devices, connects them to the network, and delivers content.

    5G networks will dramatically improve bandwidth while reducing network contention and latency. 6G will increase speeds by yet another order of magnitude.

    Enabling the untethered functionality, high performance, and miniaturization required by the next generation of mobile devices, smartglasses, and wearables will require increasingly powerful and tinier hardware: semiconductors that are imminently dropping to 3nm processes and beyond; microelectromechanical systems (MEMS) that enable tiny sensors; and compact, long-lasting batteries.

    Internet 3.0

    The metaverse is not “a” metaverse. It is the next generation of the Internet: a multiverse. The abundant adventures in this space will surround us both socially and graphically.

    And while there will be many proprietary (and very fun) theme parks in the metaverse, I’m even more excited by the opportunity in the Switzerlands: a metaverse powered by a robust creator-economy enabled through decentralization.

  • What’s the Difference Between Intranets and Extranets and How Are They Useful?

    What’s the Difference Between Intranets and Extranets and How Are They Useful?

    In 2021, the percentage of companies switching to remote work has drastically increased. This makes businesses turn to implementing intranets and extranets to organize collaboration among employees, as well as with customers and partners. For example, 70% of companies consider an intranet valuable or very valuable to their employees, while extranets are widely used among the B2B community.

    What is an intranet?

    According to Gartner, an intranet uses techniques similar to the internet, but it can be accessed only by a company’s employees. Intranets offer features to address internal communication and collaboration, project and task management. For example, in an intranet, employees can track the latest project updates and important business news.

    Intranets are widely used in onboarding. For example, they can provide multimedia training tools for intro learning and collaboration tools for new hires and their tutors.

    An intranet’s key functionality includes:

    • Employee information management. Employees can edit their profiles that contain both personal (e.g., a name, an address, contacts) and work-related information (e.g., a position, a department, qualifications).
    • Content management. Intranets not only serve as a source of information but also allow users to create, modify and publish various digital content (e.g., documents, news, guides, policies).
    • Project and task management. Project teams can use an intranet to track project and tasks, including progress, deadlines, related documents and discussions, and more.
    • Employee collaboration and communication. Intranets offer department and team sites for effective collaboration on projects, tasks, and documents as well as provide communication tools (e.g., instant messaging and video conferencing).
    • Knowledge management. Intranet users can process, store, improve, make corporate knowledge easily accessible and actively reused.
    • Learning management. Intranets provide creating, scheduling and delivering trainings to employees, including knowledge assessment and certification. Also, employees can enroll into a relevant training via an intranet.
    • Employee self-service. Employees can submit various requests (e.g., vacation, equipment maintenance, training) via an intranet and track their fulfillment.
    • Social features. These intranet features help improve employee engagement and motivation. They include integration with social media, forums, blogs, mentions, comments, likes, surveys, communities, and gamification features like badges, points, and leaderboards.

    What is an extranet?

    Extranets connect organizations with their suppliers, customers, business partners, or other third parties. They help engage external participants in internal business processes, for example, to streamline procurement operations and support a real-time supply chain.

    An extranet’s key functionality includes:

    • Collaboration with partners. These features include bid management, vendor assessment and approval workflows, and more (for vendor portals).
    • Communication with customers and customer self-service. Customers can place service requests and track their resolution, find answers to their questions about your product or service in a knowledge base, exchange ideas and opinions about your brand via discussion boards.

    Benefits of using an intranet

    • Efficient employee communication and collaboration. Such features as chats, discussion boards, real-time collaboration on documents, and more allow your employees to stay in touch even if they’re working remotely.
    • Facilitated project management. Project teams can create, modify, and notify their members about task updates via an intranet. And project managers can track the project progress and assess the team’s performance.
    • Increased employee productivity. Using one digital workspace saves time and effort otherwise spent on switching between disparate tools (e.g., email, video conferencing applications, messengers, project management software), which helps improve employee productivity.

    Benefits of using an extranet

    • Facilitated business process management. Extranets allow automating processes like vendor assessment and approval, order placement, billing, and more. Besides, your customers and partners get access to the information you want to share with them without calling or emailing you.
    • Corporate and personal data safety. An extranet is a more secure way to exchange data than, for example, an email, as it offers granular access control, multifactor authentication, encryption of data at rest and in transit, audit trail, and other security measures.
    • Improved visibility into business operations. With an extranet, you can see every action taken, let’s say, during the order fulfilment, as well as who did them. This makes the whole process traceable and enhances quality control.

    Intranet vs. extranet

    An intranet can become a suitable solution for creating a safe digital working environment for your employees, increase employee motivation, and strengthen the sense of community.

    An extranet, in its turn, can enable remote collaboration with your customers, vendors and partners and save the time and efforts of all the parties via automation and creating full visibility into the collaboration process.

    Facilitate employee and business collaboration

    It might be overwhelming to choose intranet or extranet functionality that would be enough to meet your business needs, implement, and support your solution. If you need help with any of these tasks, feel free to contact Scs Tech team.